Abstract
In Lake Tanganyika, lake level fluctuations were shown to have had a major impact on the evolution of littoral species. Many species are subdivided into arrays of populations, geographical races and sister species, each colonizing a particular section of the shore. Their often limited dispersal abilities promoted geographic isolation and, on the long run, allopatric speciation. With more than 120 distinct populations, the genus Tropheus represents the most spectacular and best-studied example of this phenomenon. The present study aims at the fine-scale reconstruction of the spread of two mitochondrial Tropheus-lineages in the very north of the lake, where two species, T. sp. ‘black’ and T. brichardi, occur. Using mtDNA sequences and AFLP-data, we analyzed samples from 21 localities and found a highly complex conglomerate of introgressed populations formed by the repeated contact of two lineages. Our data suggest repeated cross-lake dispersal of T. sp. ‘black’ haplotypes along the ridge between the West and East Ubwari Fault, supporting an additional persisting lowstand-lake in the Bujumbura subbasin at the very north of the lake and highlighting once more the impact of lake level fluctuations on the genetic structure and evolution of stenotopic rock-dwelling cichlid species.
Highlights
Genetic and phenotypic divergence among populations forms the basis of speciation events
This study is based on 179 sequences of the most variable part of the mitochondrial control regions and AFLP profiles of 30 individuals
It is interesting to note that the TCS-1 haplotypes assigned to the pink haplotype cluster are not exclusive to the very northern part of the lake
Summary
Genetic and phenotypic divergence among populations forms the basis of speciation events. S. Koblmuller Institute of Vertebrate Biology, Academy of Sciences of the Czech Republic, Kvetna 8, 603 65 Brno, Czech Republic such pathways rarely proceed in a linear fashion by divergence alone, as repeated intermezzos of gene flow perturbate gene pools and set the stage for selection, drift, and speciation (King & Lawson, 1995; Rossiter, 1995; Pinho & Hey, 2010; Sturmbauer, 2011). Following the spatial segregation into rock- and sand-habitats along the shores of Lake Tanganyika, many stenotopic littoral species are subdivided into distinct populations that vary mainly in coloration. Tropheus is abundant in the upper littoral zone in all types of rocky habitats, where it feeds on epilithic algae and takes shelter from predators. The six described species (Poll, 1986) are currently under revision (Van Steenberge, 2014)
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